Biology Reference
In-Depth Information
31. Murphy HM, Wideman CH, Nadzam GR. A laboratory animal model of human shift
work. Integr Physiol Behav Sci . 2003;38:316-328.
32. Hoogerwerf WA, Hellmich HL, Cornelissen G, et al. Clock gene expression in the
murine gastrointestinal tract: endogenous rhythmicity and effects of a feeding regimen.
Gastroenterology . 2007;133:1250-1260.
33. Salgado-Delgado R, Angeles-Castellanos M, Buijs MR, Escobar C. Internal
desynchronization in a model of night-work by forced activity in rats. Neuroscience .
2008;154:922-931.
34. Aschoff J, Hoffmann K, Pohl H, Wever R. Re-entrainment of circadian rhythms after
phase-shifts of the Zeitgeber. Chronobiologia . 1975;2:23-78.
35. Zee PC, Rosenberg RS, Turek FW. Effects of aging on entrainment and rate of
resynchronization of
circadian locomotor
activity.
Am J Physiol . 1992;263:
R1099-R1103.
36. Illnerova H, Vanecek J, Hoffmann K. Adjustment of the rat pineal N-acetyltransferase
rhythm to eight-hour shifts of the light-dark cycle: advance of the cycle disturbs the
rhythm more than delay. Brain Res . 1987;417:167-171.
37. Sellix MT, Evans JA, Leise TL, et al. Aging differentially affects the re-entrainment
response of central
and peripheral circadian oscillators.
J Neurosci . 2012;32:
16193-16202.
38. Nagano M, Adachi A, Nakahama K, et al. An abrupt shift in the day/night cycle causes
desynchrony in the mammalian circadian center. J Neurosci . 2003;23:6141-6151.
39. Rohling JH, Vanderleest HT, Michel S, Vansteensel MJ, Meijer JH. Phase resetting of
the mammalian circadian clock relies on a rapid shift of a small population of pacemaker
neurons. PLoS One . 2011;6:e25437.
40. Reddy AB, Field MD, Maywood ES, Hastings MH. Differential resynchronisation of
circadian clock gene expression within the suprachiasmatic nuclei of mice subjected to
experimental jet lag. J Neurosci . 2002;22:7326-7330.
41. Ruby NF, Joshi N, Heller HC. Phase shift magnitude and direction determine whether
Siberian hamsters reentrain to the photocycle. J Biol Rhythms . 1998;13:506-517.
42. Jewett ME, Kronauer RE, Czeisler CA. Light-induced suppression of endogenous
circadian amplitude in humans. Nature . 1991;350:59-62.
43. Honma S, Honma K. Light-induced uncoupling of multioscillatory circadian system in
a diurnal rodent, Asian chipmunk. Am J Physiol . 1999;276:R1390-R1396.
44. Navaneethakannan K, Chandrashekaran MK. Light and dark pulse response curves in a
day active palm squirrel Funambulus palmarum . Exp Biol . 1986;45:267-273.
45. Jewett ME, Forger DB, Kronauer RE. Revised limit cycle oscillator model of human
circadian pacemaker. J Biol Rhythms . 1999;14:493-499.
46. Aschoff J, Pohl H. Phase relations between a circadian rhythm and its zeitgeber within
the range of entrainment. Naturwissenschaften . 1978;65:80-84.
47. Gronfier C, Wright Jr KP, Kronauer RE, Czeisler CA. Entrainment of the human
circadian pacemaker to longer-than-24-h days. Proc Natl Acad Sci USA . 2007;104:
9081-9086.
48. Kelly TL, Neri DF, Grill JT, et al. Nonentrained circadian rhythms of melatonin in
submariners scheduled to an 18-hour day. J Biol Rhythms . 1999;14:190-196.
49. Dijk DJ, Duffy JF, Riel E, Shanahan TL, Czeisler CA. Ageing and the circadian and
homeostatic regulation of human sleep during forced desynchrony of rest, melatonin
and temperature rhythms. J Physiol . 1999;516:611-627.
50. de la Iglesia HO, Cambras T, Schwartz WJ, Diez-Noguera A. Forced
desynchronization of dual circadian oscillators within the rat suprachiasmatic nucleus.
Curr Biol . 2004;14:796-800.
51. Moore-Ede MC, Sulzman FM, Fuller C, eds. The Clocks that Time Us: Physiology of the
Circadian Timing System . Cambridge: Harvard University Press; 1982.
 
 
 
Previous Page
Next Page
Progress in Molecular Biology and Translational Science
Search WWH ::




Custom Search
Home